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Here, for the first time in more than eighty years, is a detailed study of political Antimasonry on the national, state, and local levels, based on a survey of existing sources. The Antimasonic party, whose avowed goal was the destruction of the Masonic Lodge and other secret societies, was the first influential third party in the United States and introduced the device of the national presidential nominating convention in 1831. Vaughn focuses on the celebrated "Morgan Affair" of 1826, the alleged murder of a former Mason who exposed the fraternity's secrets. Thurlow Weed quickly transformed the crusading spirit aroused by this incident into an anti-Jackson party in New York. From New York, the party soon spread through the Northeast. To achieve success, the Antimasons in most states had to form alliances with the major parties, thus becoming the "flexible minority." After William Wirt's defeat by Andrew Jackson in the election of 1832, the party waned. Where it had been strong, Antimasonry became a reform-minded, anti-Clay faction of the new Whig party and helped to secure the presidential nominations of William Henry Harrison in 1836 and 1840. Vaughn concludes that although in many ways the Antimasonic Crusade was finally beneficial to the Masons, it was not until the 1850s that the fraternity regained its strength and influence.
We have taught plant molecular biology and biotechnology at the undergraduate and graduate level for over 20 years. In the past few decades, the field of plant organelle molecular biology and biotechnology has made immense strides. From the green revolution to golden rice, plant organelles have revolutionized agriculture. Given the exponential growth in research, the problem of finding appropriate textbooks for courses in plant biotechnology and molecular biology has become a major challenge. After years of handing out photocopies of various journal articles and reviews scattered through out the print and electronic media, a serendipitous meeting occurred at the 2002 IATPC World Congress held in Orlando, Florida. After my talk and evaluating several posters presented by investigators from my laboratory, Dr. Jacco Flipsen, Publishing Manager of Kluwer Publishers asked me whether I would consider editing a book on Plant Organelles. I accepted this challenge, after months of deliberations, primarily because I was unsuccessful in finding a text book in this area for many years. I signed the contract with Kluwer in March 2003 with a promise to deliver a camera-ready textbook on July 1, 2004. Given the short deadline and the complexity of the task, I quickly realized this task would need a co-editor. Dr. Christine Chase was the first scientist who came to my mind because of her expertise in plant mitochondria, and she readily agreed to work with me on this book.
The application of new molecular methodologies in the study of bacterial behavior and cell architecture has enabled new revolutionary insights and discoveries in these areas. This new text presents recent developments in bacterial physiology that are highly relevant to a wide range of readership including those interested in basic and applied knowledge. Its chapters are written by international scientific authorities at the forefront of the subject. The value of this recent knowledge in bacterial physiology is not only restricted to fundamental biology. It also extends to biotechnology and drug-discovery disciplines.
Since antibodies tagged with markers have been developed, immunocytochemistry has become an important method for identifying tissue substances and the localisation of nucleic acid in tissue by in situ hybridisation in molecular biology. This laboratory book covers the embedding of tissue using less sensitive epoxy resin methods to the more sensitive procedures employing the acrylics. The possibilities are discussed and results are presented so that an understanding of the techniques can be acquired.
In the year 2001, Prof. Dr. Ursula Kües was appointed at the Faculty of Forest Sciences and Forest Ecology of the Georg-August-University Göttingen to the chair Molecular Wood Biotechnology endowed by the Deutsche Bundesstiftung Umwelt (DBU). Her group studies higher fungi in basic and applied research. Research foci are on mushroom development and on fungal enzymes degrading wood and their applications in wood biotechnology. This book has been edited to thank the DBU for all support given to the chair Molecular Wood Biotechnology. Contributions to the book are from scientists from Göttingen recognised in different fields of forestry and wood science. Chapters presented by members of the group Molecular Wood Biotechnology introduces into their areas of research. The book is designed for interested students of wood biology and wood technology but will also address scientists in the field.
This book represents the proceedings of a conference, Rheumaderm, that was held in December 1997. The meeting was a dialogue between the specialties of Rheumatology and Dermatology, exploring and discussing areas of common interest. The aim was to present problems common to both specialties, thereby emphasising the team approach to such problems and helping to combine various skills.